Onoda Hiroki, Shoji Osami, Watanabe Yoshihito
Department of Chemistry, Graduate School of Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan.
Dalton Trans. 2015 Sep 14;44(34):15316-23. doi: 10.1039/c5dt00797f.
Cytochrome P450SPα (P450SPα) and cytochrome P450BSβ (P450BSβ) belonging to the CYP152 family of enzymes (CYP152s) can utilize H2O2 efficiently as an oxidant for the generation of compound I. Although P450SPα and P450BSβ have very high substrate specificity and catalyse hydroxylation of long-chain fatty acids exclusively, we found that they can oxidize non-native substrates such as styrene simply by including medium chain length n-alkyl carboxylic acids as "decoy molecules." Although we had assumed that acetic acid did not serve as a decoy molecule, P450SPα and P450BSβ efficiently catalysed oxidation of non-native substrates when the reaction was carried out at a high concentration of acetate anion. The turnover rate for epoxidation of styrene catalysed by P450BSβ in the presence of 1 M acetate anion reached 590 ± 30 min(-1).
属于CYP152酶家族(CYP152s)的细胞色素P450SPα(P450SPα)和细胞色素P450BSβ(P450BSβ)能够有效地利用过氧化氢作为氧化剂来生成化合物I。尽管P450SPα和P450BSβ具有非常高的底物特异性且仅催化长链脂肪酸的羟基化反应,但我们发现,只需加入中链长度的正烷基羧酸作为“诱饵分子”,它们就能氧化诸如苯乙烯等非天然底物。尽管我们曾认为乙酸不能作为诱饵分子,但当反应在高浓度乙酸根阴离子存在下进行时,P450SPα和P450BSβ能有效地催化非天然底物的氧化反应。在1 M乙酸根阴离子存在的情况下,P450BSβ催化苯乙烯环氧化反应的周转速率达到了590±30 min⁻¹。
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